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spinqualitylabelsall models 1jcj, resolution 1.10Å Show:Asymmetric Unit Biological Assembly Drag the structure with the mouse to rotate   Export Animated Image

OBSERVATION OF COVALENT INTERMEDIATES IN AN ENZYME MECHANISM AT ATOMIC RESOLUTION

Overview

In classical enzymology, intermediates and transition states in a, catalytic mechanism are usually inferred from a series of biochemical, experiments. Here, we derive an enzyme mechanism from true, atomic-resolution x-ray structures of reaction intermediates. Two, ultra-high resolution structures of wild-type and mutant, d-2-deoxyribose-5-phosphate (DRP) aldolase complexes with DRP at 1.05 and, 1.10 angstroms unambiguously identify the postulated covalent, carbinolamine and Schiff base intermediates in the aldolase mechanism. In, combination with site-directed mutagenesis and (1)H nuclear magnetic, resonance, we can now propose how the heretofore elusive C-2 proton, abstraction step and the overall stereochemical course are accomplished. A, proton relay system appears to activate a conserved active-site water that, functions as the critical mediator for proton transfer.

About this Structure

1JCJ is a Single protein structure of sequence from Escherichia coli with HPD as ligand. Active as Deoxyribose-phosphate aldolase, with EC number 4.1.2.4 Full crystallographic information is available from OCA.

Reference

Observation of covalent intermediates in an enzyme mechanism at atomic resolution., Heine A, DeSantis G, Luz JG, Mitchell M, Wong CH, Wilson IA, Science. 2001 Oct 12;294(5541):369-74. PMID:11598300

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